CN109309144A - A kind of photovoltaic component lamination localization method, tooling and structure - Google Patents

Abstract

The invention discloses a kind of photovoltaic component lamination localization methods, tooling and structure, using optical alignment domain projection arrangement, it is equipped with the visible light source of installation inside the shell, grating and optical lens group, by optical alignment domain projection arrangement by optical alignment domain perpendicular projection to the glass plate for being laid with EVA layer, staff is the positioning that battery strings are realized using optical alignment domain, compared to existing stacking locating template, the present invention has using more convenient, quick advantage, manpower consumption can be reduced, it improves efficiency, and there is the grating of different stacked template domains by replacement, the present invention is applicable to different domains, the photovoltaic module of version type, and the production of grating is simple, cost is relatively low, so that the present invention also have it is applied widely, advantage at low cost.

Description

A kind of photovoltaic component lamination localization method, tooling and structure

Technical field

The present invention relates to photovoltaic module production field, especially a kind of photovoltaic component lamination localization method, and, Yi Zhongyong In the photovoltaic component lamination positioning tool for realizing the localization method, and using the photovoltaic component lamination location structure of the tooling.

Background technique

In photovoltaic module production process, lamination procedure is entered after welding of battery film bunchiness, by employee manually to each battery Typesetting of going here and there is welded, and to guarantee the spacing accuracy between battery strings and battery strings, meets drawing requirement, need to be used and be marked graduated mould Plate facilitates employee to position.However, photovoltaic module technology is during continuous progress, version type constantly changes, and uses tradition Positioning method need to constantly replace design, process the stacking locating template corresponding to version type, using template, cause material unrestrained Take, excessive consumption manpower and manufacture beat extend.

Summary of the invention

The technical problems to be solved by the present invention are: a kind of photovoltaic component lamination localization method, tooling and structure are provided, with Solve existing stacking locating template be applicable in photovoltaic module version type is single, use cost is high, Production Time is long, asking more than labor intensive Topic.

Above-mentioned technical problem is solved, the technical solution adopted in the present invention is as follows:

A kind of photovoltaic component lamination localization method, it is characterised in that: the photovoltaic component lamination localization method includes:

Step 1: control visible light passes through the grating gap in optical lens group and grating after glass plate is laid with EVA layer Afterwards, perpendicular projection forms optical alignment plate to the glass plate to project on the glass plate for be laid with EVA layer；

Wherein, the grating gap is formed on the grating by marking, and the shape and stacking of the grating gap Template domain is identical, and the stacked template domain refers to typesetting position of the battery strings relative to glass plate in photovoltaic module lamination process It sets；The optical alignment plate is the optical imagery of stacked template domain equal proportion amplification；

Step 2: the layout position shown according to the optical alignment plate meaning, battery strings are placed on and have been laid with EVA The corresponding position of the glass plate of layer.

A kind of photovoltaic component lamination positioning tool, it is characterised in that: the photovoltaic component lamination positioning tool is equipped with light Learn positioning domain projection arrangement；The visible light that the optical alignment domain projection arrangement is equipped with shell and is mounted in the shell Source, grating and optical lens group, the grating are imprinted with shape grating gap identical with stacked template domain, wherein described Stacked template domain refers to layout position of the battery strings relative to glass plate in photovoltaic module lamination process；The visible light source institute After the visible light of sending is by the grating gap in the optical lens group and the grating, projecting shape is the stacking mould The optical alignment domain of plate domain equal proportion amplification.

As the preferred embodiment of the present invention: the photovoltaic component lamination positioning tool sets that there are two the optics is fixed Position domain projection arrangement, two optical alignment domain projection arrangements are relatively fixed, and two optical alignment domain projection dresses Stacked template domain corresponding to the grating set is respectively head end stacked template domain and tail end stacked template domain, the head end Stacked template domain is layout position of the head end of battery strings in the photovoltaic module lamination process relative to the glass plate, institute State typesetting position of the tail end relative to the glass plate of battery strings in photovoltaic module lamination process described in tail end stacked template domain It sets.

Wherein, preferred: the photovoltaic component lamination positioning tool is additionally provided with fixed bracket；Two optical alignments Domain projection arrangement is each attached on the fixed bracket.

As the preferred embodiment of the present invention: the visible light that the visible light source is issued is directional light, the optics Lens group includes concavees lens and convex lens, the visible light source, concavees lens, grating and convex lens in the shell successively by Up to lower arrangement, and the direction of the issued directional light of the visible light source is perpendicular to the concavees lens, grating and convex lens.

Wherein, preferred: the visible light source is area source, and the visible light that the visible light source is issued is red Light.

Wherein, preferred: the optical alignment domain projection arrangement is additionally provided with distance adjusting mechanism, and the distance adjusts machine Structure is installed on the housing and can adjust the distance between the grating and convex lens.

As the preferred embodiment of the present invention: the grating is made of PET material.

Wherein, preferred: the grating gap on the grating is marked by laser technology to be formed.

A kind of photovoltaic component lamination location structure, including being laid with the glass plate of EVA layer and for positioning the folded of battery strings Layer locating template, it is characterised in that: the lamination locating template is the photovoltaic component lamination positioning tool；The photovoltaic Component stack positioning tool is fixed on the top of the glass plate for being laid with EVA layer, and optical alignment domain projection dress Set and project the direction of the optical alignment domain perpendicular to the glass plate so that the optical alignment domain project it is described It has been laid on the glass plate of EVA layer.

Compared with prior art, the invention has the following advantages:

The present invention uses optical alignment domain projection arrangement, is equipped with visible light source, grating and the light of installation inside the shell Lens group is learned, by optical alignment domain projection arrangement by optical alignment domain perpendicular projection to the glass for being laid with EVA layer Glass plate, staff are the positioning that battery strings are realized using optical alignment domain, compared to existing stacking locating template, originally Invention has the advantages that be reduced manpower consumption, be improved efficiency using more convenient, quick, and has by replacement different The grating of stacked template domain, the present invention be applicable to the photovoltaic modulies of different domains, version type, and the production of grating it is simple, Cost is relatively low so that the present invention also have the advantages that it is applied widely, at low cost.

Detailed description of the invention

Fig. 1 is the structural schematic diagram that optical alignment domain projection arrangement has transparent effect in the present invention；

Fig. 2 is the structural schematic diagram of grating in the present invention；

Fig. 3 is the structural schematic diagram of the photovoltaic component lamination location structure of the embodiment of the present invention two；

Fig. 4 is the structural schematic diagram of the photovoltaic component lamination location structure of the embodiment of the present invention three.

Specific embodiment

Below with reference to embodiment, the invention will be further described:

Embodiment one

The embodiment of the present invention one discloses a kind of photovoltaic component lamination localization method, comprising:

Step 1: control visible light passes through the grating gap in optical lens group and grating after glass plate is laid with EVA layer Afterwards, perpendicular projection forms optical alignment plate to the glass plate to project on the glass plate for be laid with EVA layer；

Wherein, the grating gap is formed on the grating by marking, so that grating can at grating gap It is transmitted ray, opaque at non-gap, and the shape of the grating gap is identical as stacked template domain, the stacked template Domain refers to layout position of the battery strings relative to glass plate in photovoltaic module lamination process；The optical alignment plate is described The optical imagery of stacked template domain equal proportion amplification；

Step 2: the layout position shown according to the optical alignment plate meaning, battery strings are placed on and have been laid with EVA The corresponding position of the glass plate of layer.

Embodiment two

As shown in Figure 1 to Figure 3, the embodiment of the present invention two discloses a kind of photovoltaic component lamination positioning tool, is equipped with light Learn positioning domain projection arrangement 1；The optical alignment domain projection arrangement 1 is equipped with shell 11 and is mounted in the shell 11 Visible light source 12, grating 13 and optical lens group, the grating 13 are imprinted with shape grating seam identical with stacked template domain Gap 13a, so that grating 13 is transmissive to light, opaque at non-gap at grating gap 13a, wherein the stacking Template domain refers to layout position of the battery strings relative to glass plate 4 in photovoltaic module lamination process；12 institute of visible light source After the visible light of sending is by the grating gap 13a in the optical lens group and the grating 13, it is described for projecting shape The optical alignment domain 2 of stacked template domain equal proportion amplification.

The embodiment of the present invention two also discloses a kind of photovoltaic component lamination location structure, the photovoltaic component lamination location structure It can be realized one the method for embodiment comprising be laid with the glass plate 4 of EVA layer and the lamination positioning for positioning battery strings Template.

The lamination locating template is the photovoltaic component lamination positioning tool；The photovoltaic component lamination positions work Dress is fixed on the top of the glass plate 4 for being laid with EVA layer, and the optical alignment domain projection arrangement 1 project it is described The direction of optical alignment domain is perpendicular to the glass plate 4, so that the optical alignment domain projects and described has been laid with EVA layer Glass plate 4 on.

In photovoltaic module lamination process, the mode positioned using the present invention to battery strings is as follows:

Firstly, after glass plate 4 has been laid with EVA layer, it is ensured that photovoltaic component lamination positioning tool is fixed on described be laid with The top of the glass plate 4 of EVA layer；Then, start visible light source 12, so that optical alignment domain projection arrangement 1 is by optical alignment Domain perpendicular projection is to the glass plate 4 for being laid with EVA layer；Finally, staff is using optical alignment domain as mark line, it is fixed Position goes out position of every a string of battery strings on glass plate 4, with it is accurate, easily battery strings are placed into corresponding position On.

To which compared to existing stacking locating template, the present invention has the advantages that use is more convenient, quick, can It reduces manpower consumption, improve efficiency, and there is the grating 13 of different stacked template domains by replacement, the present invention is applicable to The photovoltaic module of different domains, version type, and the production of grating 13 is simple, cost is relatively low, so that the present invention also has the scope of application Extensively, advantage at low cost.

Embodiment three

On the basis of above-described embodiment two, the present embodiment three additionally uses following preferred structure:

As shown in figure 4, the photovoltaic component lamination positioning tool is set, there are two the optical alignment domain projection arrangements 1, two optical alignment domain projection arrangements 1 are relatively fixed, and 13 institute of grating of two optical alignment domain projection arrangements 1 Corresponding stacked template domain is respectively head end stacked template domain and tail end stacked template domain, the head end stacked template version Figure is layout position of the head end of battery strings in the photovoltaic module lamination process relative to the glass plate 4, the tail end layer Layout position of the tail end of battery strings relative to the glass plate 4 in photovoltaic module lamination process described in folded template domain.

To which referring to fig. 4, the optical alignment domain projection arrangement 1 of corresponding head end stacked template domain is in 4 upslide of glass plate Head end optical alignment domain 21 is projected, the optical alignment domain projection arrangement 1 of corresponding tail end stacked template domain is on glass plate 4 Tail end optical alignment domain 22 is projected, the head end optical alignment domain 21 and tail end optical alignment domain 22 are as complete altogether Whole optical alignment domain 2.

Wherein, preferred: the photovoltaic component lamination positioning tool is additionally provided with fixed bracket 3；Two optics are fixed Position domain projection arrangement 1 is each attached on the fixed bracket 3.To, it is ensured that two optical alignment domain projection arrangements 1 project The relative position of head end optical alignment domain 21 and tail end optical alignment domain 22 out is accurate.

In addition, the present invention can also be only with an optical alignment domain projection arrangement 1, in such cases, head end layer Folded template domain and the corresponding grating gap 13a marking of tail end stacked template domain will cause light on same grating 13 The size for learning positioning domain projection arrangement 1 is larger.

Example IV

On the basis of above-described embodiment two or embodiment three, the present embodiment four additionally uses following preferred structure:

The visible light that the visible light source 12 is issued is directional light, and the optical lens group includes concavees lens 14 and convex Lens 15, the visible light source 12, concavees lens 14, grating 13 and the convex lens 15 successively from top to bottom cloth in the shell 11 It sets, and the direction of the issued directional light of the visible light source 12 is perpendicular to the concavees lens 14, grating 13 and convex lens 15.

To, it is seen that the directional light that light source 12 is issued passes perpendicularly through the grating gap 13a of the concavees lens 14, grating 13 The amplification of 2 equal proportion of optical alignment domain can be guaranteed in stacking mould so as to form the optical alignment domain 2 with convex lens 15 Plate domain and it is undistorted.

Wherein, preferred: the visible light source 12 is area source, and the visible light that the visible light source 12 is issued is red Coloured light, in the present embodiment, which refers to wavelength in 620nm to the light between 760nm.

Wherein, preferred: the optical alignment domain projection arrangement 1 is additionally provided with distance adjusting mechanism, and the distance is adjusted Mechanism the distance between is mounted on the shell 11 and can adjust the grating 13 and convex lens 15.To convenient to adjust Save amplification factor of the optical alignment domain 2 relative to stacked template domain on grating 13.

Embodiment five

On the basis of any one embodiment into example IV of above-described embodiment two, the present embodiment five additionally use with Preferred structure down:

The grating 13 is made of lighttight PET material.

Wherein, preferred: the grating gap 13a on the grating 13 is marked by laser technology to be formed.

The present invention is not limited to above-mentioned specific embodiment, according to above content, according to the ordinary technical knowledge of this field And customary means, under the premise of not departing from above-mentioned basic fundamental thought of the invention, the present invention can also make other diversified forms Equivalent modifications, replacement or change, all fall among protection scope of the present invention.

Claims (10)

1. a kind of photovoltaic component lamination localization method, it is characterised in that: the photovoltaic component lamination localization method includes:

Step 1: after glass plate is laid with EVA layer, after control visible light is by the grating gap in optical lens group and grating, Perpendicular projection forms optical alignment plate to the glass plate, to project on the glass plate for be laid with EVA layer；

Wherein, the grating gap is formed by marking, and the shape of the grating gap is identical as stacked template domain, described Stacked template domain refers to layout position of the battery strings relative to glass plate in photovoltaic module lamination process；The optical alignment figure Version is the optical imagery of stacked template domain equal proportion amplification；

Step 2: the layout position shown according to the optical alignment plate meaning, battery strings are placed on and have been laid with EVA layer The corresponding position of the glass plate.

2. a kind of photovoltaic component lamination positioning tool, it is characterised in that: the photovoltaic component lamination positioning tool is equipped with optics Position domain projection arrangement；The visible light that the optical alignment domain projection arrangement is equipped with shell and is mounted in the shell Source, grating and optical lens group, the grating are imprinted with shape grating gap identical with stacked template domain, wherein described Stacked template domain refers to layout position of the battery strings relative to glass plate in photovoltaic module lamination process；The visible light source institute After the visible light of sending is by the grating gap in the optical lens group and the grating, projecting shape is the stacking mould The optical alignment domain of plate domain equal proportion amplification.

3. photovoltaic component lamination positioning tool according to claim 2, it is characterised in that: the photovoltaic component lamination is fixed Position tooling is set there are two the optical alignment domain projection arrangement, and two optical alignment domain projection arrangements are relatively fixed, and Stacked template domain corresponding to the grating of two optical alignment domain projection arrangements be respectively head end stacked template domain and Tail end stacked template domain, the head end stacked template domain are that the head end of battery strings in the photovoltaic module lamination process is opposite In the layout position of the glass plate, the tail end of battery strings in photovoltaic module lamination process described in the tail end stacked template domain Layout position relative to the glass plate.

4. photovoltaic component lamination positioning tool according to claim 3, it is characterised in that: the photovoltaic component lamination is fixed Position tooling is additionally provided with fixed bracket；Two optical alignment domain projection arrangements are each attached on the fixed bracket.

5. according to photovoltaic component lamination positioning tool described in claim 2 to 4 any one, it is characterised in that: described visible The visible light that light source is issued is directional light, and the optical lens group includes concavees lens and convex lens, the visible light source, recessed Lens, grating and convex lens are successively from top to bottom arranged in the shell, and the side of the issued directional light of the visible light source To perpendicular to the concavees lens, grating and convex lens.

6. photovoltaic component lamination positioning tool according to claim 5, it is characterised in that: the visible light source is face light Source, the visible light that the visible light source is issued are red light.

7. photovoltaic component lamination positioning tool according to claim 5, it is characterised in that: the optical alignment domain projection Device is additionally provided with distance adjusting mechanism, the distance adjusting mechanism installation on the housing and can adjust the grating with it is convex The distance between lens.

8. according to photovoltaic component lamination positioning tool described in claim 2 to 4 any one, it is characterised in that: the light Grid are made of PET material.

9. photovoltaic component lamination positioning tool according to claim 8, it is characterised in that: the grating gap on the grating It is marked and is formed by laser technology.

10. a kind of photovoltaic component lamination location structure, the lamination including being laid with the glass plate of EVA layer and for positioning battery strings Locating template, it is characterised in that: the lamination locating template is that photovoltaic module described in claim 2 to 9 any one is folded Layer positioning tool；The photovoltaic component lamination positioning tool is fixed on the top of the glass plate for being laid with EVA layer, and described Optical alignment domain projection arrangement projects the direction of the optical alignment domain perpendicular to the glass plate, so that the optics Positioning domain projects described be laid on the glass plate of EVA layer.